Title :
Gigahertz InGaAs-based vertical Schottky diode optical detectors by substrate removal
Author :
Vaccaro, K. ; Spaziani, S.M. ; Martin, E.A. ; Lorenzo, J.P.
Author_Institution :
Electromagnetics & Reliability Directorate, USAF Rome Lab., Hanscom AFB, MA, USA
fDate :
6/1/1998 12:00:00 AM
Abstract :
In this paper, we present high-performance InGaAs vertical Schottky diode optical detectors and document design criteria and fabrication processes. The photodiodes are n-type and have an asymmetric contact structure with a rectifying anode and ohmic cathode. The vertical structure is achieved through InP substrate removal which exposes the back surface of the epitaxial layers. Ohmic contact is made to the exposed back surface. High-quality Schottky diodes with φBn≈0.85 V are reproducibly achieved through an etching pretreatment, resulting in dark currents below 10 pA/μm2 . Substrate removal and mesa definition result in low parasitic capacitance without the need of air bridges and allow accurate fiber-to-detector alignment. Responsivities greater than 0.7 A/W are obtained when a transparent conductor is used as the ohmic contact. RC-limited bandwidths as high as 19 GHz are measured for 20×20 μm2 devices
Keywords :
III-V semiconductors; Schottky diodes; dark conductivity; etching; gallium arsenide; indium compounds; ohmic contacts; optical communication equipment; optical design techniques; optical fabrication; photodetectors; photodiodes; 0.85 V; 19 GHz; 20 mum; InGaAs; InP substrate removal; RC-limited bandwidths; asymmetric contact structure; back surface; dark currents; design criteria; epitaxial layers; fabrication processes; fiber-to-detector alignment; gigahertz InGaAs-based vertical Schottky diode optical detectors; low parasitic capacitance; mesa definition; ohmic cathode; ohmic contact; photodetectors; rectifying anode; responsivities; substrate removal; vertical structure; Anodes; Cathodes; Indium gallium arsenide; Ohmic contacts; Optical design; Optical detectors; Optical device fabrication; Photodiodes; Schottky diodes; Substrates;
Journal_Title :
Quantum Electronics, IEEE Journal of
